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Rosen-luo

铜虫 (初入文坛)

应助: 0 (幼儿园)
金币: 179.7
帖子: 22
在线: 1.1小时
虫号: 415993

[资源] SCI上能查到的引用过ATK的文章（2008年数据）2

51 M. F. Ng, L. Shen, L. P. Zhou, S. W. Yang, and V. B. C. Tan, "Geometry Dependent I-V Characteristics of Silicon Nanowires," Nano Letters 8 (11), 3662-3667 (2008).
52 C. F. A. Negre, P. A. Gallay, and C. G. Sanchez, "Model non-linear nano-electronic device," Chemical Physics Letters 460 (1-3), 220-224 (2008).
53 H. Nakamura and K. Yamashita, "Systematic study on quantum confinement and waveguide effects for elastic and inelastic currents in atomic gold wire: Importance of the phase factor for modeling electrodes," Nano Letters 8 (1), 6-12 (2008).
54 M. Mine, T. Tsutsui, and E. Miyoshi, "Theoretical Study on the Conductance of Benzene Clusters in the pi-Stack Direction," Japanese Journal of Applied Physics 47 (10), 8033-8038 (2008).
55 J. Maciejko, Y. Zhu, J. Wang, and H. Guo, "Theory of nonequilibrium transient transport in nanostructures," International Journal of Nanotechnology 5 (9-12), 1094-1120 (2008).
56 P. Lou and J. Y. Lee, "An atomistic model and key parameters for devising single molecular nanowire sensors," Physical Chemistry Chemical Physics 10 (6), 828-833 (2008).
57 M. Q. Long, L. L. Wang, and K. Q. Chen, "Effects of structural and central metal ions modification on the electronic transport properties of porphyrin molecular junctions," Modern Physics Letters B 22 (9), 661-670 (2008).
58 M. Q. Long, K. Q. Chen, L. L. Wang, W. Qing, B. S. Zou, and Z. Shuai, "Negative differential resistance behaviors in porphyrin molecular junctions modulated with side groups," Applied Physics Letters 92 (24), 3 (2008).
59 Y. Y. Liang, Y. X. Zhou, H. Chen, R. Note, H. Mizuseki, and Y. Kawazoe, "Current through single conjugated molecules: Calculations versus measurements," Journal of Chemical Physics 129 (2), 5 (2008).
60 Z. Y. Li, H. Y. Qian, J. Wu, B. L. Gu, and W. H. Duan, "Role of symmetry in the transport properties of graphene nanoribbons under bias," Physical Review Letters 100 (20), 4 (2008).
61 Y. W. Li, G. P. Yin, J. H. Yao, and J. W. Zhao, "First-principles study of substituents effect on molecular junctions: Towards molecular rectification," Computational Materials Science 42 (4), 638-642 (2008).
62 Y. W. Li, J. H. Yao, and C. L. Yang, "Electron transport properties of diphenylacetylene molecular wire," Acta Physico-Chimica Sinica 24 (8), 1445-1450 (2008).
63 Y. F. Li, B. R. Li, and H. L. Zhang, "Ab initio investigations of the transport properties of Haeckelite nanotubes," Journal of Physics-Condensed Matter 20 (41), 10 (2008).
64 S. U. Lee, M. Khazaei, F. Pichierri, and Y. Kawazoe, "Electron transport through carbon nanotube intramolecular heterojunctions with peptide linkages," Physical Chemistry Chemical Physics 10 (34), 5225-5231 (2008).
65 S. U. Lee, R. V. Belosludov, H. Mizuseki, and Y. Kawazoe, "The role of aromaticity and the pi-conjugated framework in multiporphyrinic systems as single-molecule switches," Small 4 (7), 962-969 (2008).
66 K. T. Lam and G. C. Liang, "An ab initio study on energy gap of bilayer graphene nanoribbons with armchair edges," Applied Physics Letters 92 (22), 3 (2008).
67 S. Lakshmi, S. Dutta, and S. K. Pati, "Molecular electronics: Effect of external electric field," Journal of Physical Chemistry C 112 (38), 14718-14730 (2008).
68 M. Kula, J. Jiang, and Y. Luo, "A molecular view on electron transport in molecular electronic devices," Journal of Computational and Theoretical Nanoscience 5 (4), 401-421 (2008).
69 M. Koentopp, C. Chang, K. Burke, and R. Car, "Density functional calculations of nanoscale conductance," Journal of Physics-Condensed Matter 20 (8), 21 (2008).
70 W. Y. Kim and K. S. Kim, "Carbon nanotube, graphene, nanowire, and molecule-based electron and spin transport phenomena using the nonequilibrium Green's function method at the level of first principles theory," Journal of Computational Chemistry 29 (7), 1073-1083 (2008).
71 W. Y. Kim, Y. C. Choi, and K. S. Kim, "Understanding structures and electronic/spintronic properties of single molecules, nanowires, nanotubes, and nanoribbons towards the design of nanodevices," Journal of Materials Chemistry 18 (38), 4510-4521 (2008).
72 G. Kim, S. C. Wang, W. C. Lu, M. B. Nardelli, and J. Bernholc, "Effects of end group functionalization and level alignment on electron transport in molecular devices," Journal of Chemical Physics 128 (2), 5 (2008).
73 E. Khosravi, S. Kurth, G. Stefanucci, and E. K. U. Gross, "The role of bound states in time-dependent quantum transport," Applied Physics a-Materials Science & Processing 93 (2), 355-364 (2008).
74 K. H. Khoo, J. B. Neaton, Y. W. Son, M. L. Cohen, and S. G. Louie, "Negative differential resistance in carbon atomic wire-carbon nanotube junctions," Nano Letters 8 (9), 2900-2905 (2008).
75 M. Khazaei, S. U. Lee, F. Pichierri, and Y. Kawazoe, "Designing nanogadgets by interconnecting carbon nanotubes with zinc layers," Acs Nano 2 (5), 939-943 (2008).
76 S. H. Ke, W. T. Yang, and H. U. Baranger, "Quantum-Interference-Controlled Molecular Electronics," Nano Letters 8 (10), 3257-3261 (2008).
77 K. Kazymyrenko and X. Waintal, "Knitting algorithm for calculating Green functions in quantum systems," Physical Review B 77 (11), 7 (2008).
78 C. C. Kaun and T. Seideman, "Conductance, contacts, and interface states in single alkanedithiol molecular junctions," Physical Review B 77 (3), 4 (2008).
79 J. Jiang, M. Kula, and Y. Luo, "Molecular modeling of inelastic electron transport in molecular junctions," Journal of Physics-Condensed Matter 20 (37), 12 (2008).
80 P. Jelinek, R. Perez, J. Ortega, and F. Flores, "Ab initio study of evolution of mechanical and transport properties of clean and contaminated Au nanowires along the deformation path," Physical Review B 77 (11), 12 (2008).
81 B. A. Janta-Polczynski, J. I. Cerda, G. Ethier-Majcher, K. Piyakis, and A. Rochefort, "Parallel scanning tunneling microscopy imaging of low dimensional nanostructures," Journal of Applied Physics 104 (2), 8 (2008).
82 P. Hyldgaard, "Density-functional theory of nonequilibrium tunneling," Physical Review B 78 (16), 9 (2008).
83 M. Hepel, "Electrochemical formation of quantum-conductance Cu-metal nanobridges," Russian Journal of Electrochemistry 44 (6), 663-675 (2008).
84 Y. Hancock, K. Saloriutta, A. Uppstu, A. Harju, and M. J. Puska, presented at the Symposium on Quantum Phenomena and Devices at Low Temperatures, Espoo, FINLAND, 2008 (unpublished).
85 J. C. Greer, "Electronic current density expanded in natural orbitals," Molecular Physics 106 (11), 1363-1367 (2008).
86 V. M. Garcia-Suarez and C. J. Lambert, "Non-trivial length dependence of the conductance and negative differential resistance in atomic molecular wires," Nanotechnology 19 (45), 5 (2008).
87 M. Galperin and S. Tretiak, "Linear optical response of current-carrying molecular junction: A nonequilibrium Green's function-time-dependent density functional theory approach," Journal of Chemical Physics 128 (12), 9 (2008).
88 M. J. Ford, R. C. Hoft, A. M. McDonagh, and M. B. Cortie, "Rectification in donor-acceptor molecular junctions," Journal of Physics-Condensed Matter 20 (37), 8 (2008).
89 Z. Q. Fan, K. Q. Chen, Q. Wan, B. S. Zou, W. H. Duan, and Z. Shuai, "Theoretical investigation of the negative differential resistance in squashed C-60 molecular device," Applied Physics Letters 92 (26), 3 (2008).
90 J. S. Evans, C. L. Cheng, and T. Van Voorhis, "Spin-charge separation in molecular wire conductance simulations," Physical Review B 78 (16), 11 (2008).
91 I. Deretzis and A. La Magna, "Bias-driven local density of states alterations and transport in ballistic molecular devices," Journal of Chemical Physics 128 (16), 6 (2008).
92 S. Compemolle, G. Pourtois, B. Soree, W. Magnus, L. F. Chibotaru, and A. Ceulemans, "Conductance of a copper-nanotube bundle interface: Impact of interface geometry and wave-function interference," Physical Review B 77 (19), 4 (2008).
93 X. C. Chen, Y. Xu, and Z. Y. Zeng, "First-principles study on the transport properties of phenyl dithiol oligomers," Physica B-Condensed Matter 403 (17), 2597-2601 (2008).
94 X. C. Chen, Y. Xu, and Z. X. Dai, "Study on the electronic transport properties of the C-14 monocyclic ring: The first-principles calculations," Physica B-Condensed Matter 403 (18), 3185-3190 (2008).
95 A. Cehovin, H. Mera, J. H. Jensen, K. Stokbro, and T. B. Pedersen, "Role of the virtual orbitals and HOMO-LUMO gap in mean-field approximations to the conductance of molecular junctions," Physical Review B 77 (19), 8 (2008).
96 A. Beste, V. Meunier, and R. J. Harrison, "Electron transport in open systems from finite-size calculations: Examination of the principal layer method applied to linear gold chains," Journal of Chemical Physics 128 (15), 7 (2008).
97 I. Baldea and H. Koppel, "Electron transport through correlated molecules computed using the time-independent Wigner function: Two critical tests," Physical Review B 78 (11), 9 (2008).
98 P. Bai, E. Li, K. T. Lam, O. Kurniawan, and W. S. Koh, "Carbon nanotube Schottky diode: an atomic perspective," Nanotechnology 19 (11), 6 (2008).
99 G. Autes, C. Barreteau, D. Spanjaard, and M. C. Desjonqueres, "Electronic transport in iron atomic contacts: From the infinite wire to realistic geometries," Physical Review B 77 (15), 11 (2008).
100 M. Aschi, M. D'Alessandro, M. Pellegrino, A. Di Nola, M. D'Abramo, and A. Amadei, "Intramolecular charge transfer in pi-conjugated oligomers: a theoretical study on the effect of temperature and oxidation state," Theoretical Chemistry Accounts 119 (5-6), 469-476 (2008).
101 Y. Asai, "Nonequilibrium phonon effects on transport properties through atomic and molecular bridge junctions," Physical Review B 78 (4), 24 (2008).
102 D. Q. Andrews, G. C. Solomon, R. H. Goldsmith, T. Hansen, M. R. Wasielewski, R. P. Van Duyne, and M. A. Ratner, "Quantum Interference: The Structural Dependence of Electron Transmission through Model Systems and Cross-Conjugated Molecules," Journal of Physical Chemistry C 112 (43), 16991-16998 (2008).
103 B. Akdim and R. Pachter, "Switching behavior in pi-conjugated molecules bridging nonmetallic electrodes: A density functional theory study," Journal of Physical Chemistry C 112 (9), 3170-3174 (2008).
104 H. Aghaie, M. R. Gholami, M. Monajjemi, and M. D. Ganji, "Electron transport phenomenon simulation through the carborane nano-molecular wire," Physica E-Low-Dimensional Systems & Nanostructures 40 (9), 2965-2972 (2008).

这么多，要想将原始文献全下来，可不是件简单工作。

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